empb.c revision 1.11
1 1.11 msaitoh /* $NetBSD: empb.c,v 1.11 2015/10/02 05:22:49 msaitoh Exp $ */ 2 1.1 rkujawa 3 1.1 rkujawa /*- 4 1.1 rkujawa * Copyright (c) 2012 The NetBSD Foundation, Inc. 5 1.1 rkujawa * All rights reserved. 6 1.1 rkujawa * 7 1.1 rkujawa * This code is derived from software contributed to The NetBSD Foundation 8 1.1 rkujawa * by Radoslaw Kujawa. 9 1.1 rkujawa * 10 1.1 rkujawa * Redistribution and use in source and binary forms, with or without 11 1.1 rkujawa * modification, are permitted provided that the following conditions 12 1.1 rkujawa * are met: 13 1.1 rkujawa * 1. Redistributions of source code must retain the above copyright 14 1.1 rkujawa * notice, this list of conditions and the following disclaimer. 15 1.1 rkujawa * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 rkujawa * notice, this list of conditions and the following disclaimer in the 17 1.1 rkujawa * documentation and/or other materials provided with the distribution. 18 1.1 rkujawa * 19 1.1 rkujawa * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.1 rkujawa * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 rkujawa * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 rkujawa * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.1 rkujawa * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.1 rkujawa * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.1 rkujawa * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.1 rkujawa * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 rkujawa * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 rkujawa * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 rkujawa * POSSIBILITY OF SUCH DAMAGE. 30 1.1 rkujawa */ 31 1.1 rkujawa 32 1.1 rkujawa /* Elbox Mediator PCI bridge driver. Currently supports Mediator 1200 models.*/ 33 1.1 rkujawa 34 1.1 rkujawa #include <sys/types.h> 35 1.1 rkujawa #include <sys/param.h> 36 1.1 rkujawa #include <sys/time.h> 37 1.1 rkujawa #include <sys/systm.h> 38 1.1 rkujawa #include <sys/errno.h> 39 1.1 rkujawa #include <sys/device.h> 40 1.1 rkujawa #include <sys/malloc.h> 41 1.1 rkujawa #include <sys/extent.h> 42 1.1 rkujawa #include <sys/kmem.h> 43 1.1 rkujawa 44 1.1 rkujawa #include <uvm/uvm_extern.h> 45 1.1 rkujawa 46 1.1 rkujawa #include <machine/bus.h> 47 1.1 rkujawa #include <machine/cpu.h> 48 1.1 rkujawa 49 1.1 rkujawa #include <amiga/dev/zbusvar.h> 50 1.1 rkujawa #include <amiga/pci/empbreg.h> 51 1.3 rkujawa #include <amiga/pci/empbvar.h> 52 1.1 rkujawa #include <amiga/pci/emmemvar.h> 53 1.9 rkujawa #include <amiga/pci/empmvar.h> 54 1.1 rkujawa 55 1.1 rkujawa #include <dev/pci/pciconf.h> 56 1.1 rkujawa 57 1.1 rkujawa #include "opt_pci.h" 58 1.1 rkujawa 59 1.7 rkujawa /*#define EMPB_DEBUG 1 */ 60 1.1 rkujawa 61 1.1 rkujawa #define PCI_CONF_LOCK(s) (s) = splhigh() 62 1.1 rkujawa #define PCI_CONF_UNLOCK(s) splx((s)) 63 1.1 rkujawa 64 1.2 rkujawa #define WINDOW_LOCK(s) (s) = splhigh() 65 1.2 rkujawa #define WINDOW_UNLOCK(s) splx((s)) 66 1.2 rkujawa 67 1.8 chs static int empb_match(device_t, cfdata_t, void *); 68 1.8 chs static void empb_attach(device_t, device_t, void *); 69 1.9 rkujawa static void empb_callback(device_t); 70 1.2 rkujawa 71 1.9 rkujawa static void empb_empm_attach(struct empb_softc *sc); 72 1.9 rkujawa static int empb_empm_print(void *aux, const char *pnp); 73 1.1 rkujawa 74 1.8 chs static void empb_find_mem(struct empb_softc *); 75 1.8 chs static void empb_switch_bridge(struct empb_softc *, uint8_t); 76 1.8 chs static void empb_intr_enable(struct empb_softc *); 77 1.1 rkujawa 78 1.1 rkujawa pcireg_t empb_pci_conf_read(pci_chipset_tag_t, pcitag_t, int); 79 1.1 rkujawa void empb_pci_conf_write(pci_chipset_tag_t, pcitag_t, int, pcireg_t); 80 1.8 chs int empb_pci_bus_maxdevs(pci_chipset_tag_t, int); 81 1.8 chs void empb_pci_attach_hook(device_t, device_t, 82 1.8 chs struct pcibus_attach_args *); 83 1.8 chs pcitag_t empb_pci_make_tag(pci_chipset_tag_t, int, int, int); 84 1.8 chs void empb_pci_decompose_tag(pci_chipset_tag_t, pcitag_t, 85 1.8 chs int *, int *, int *); 86 1.8 chs int empb_pci_intr_map(const struct pci_attach_args *, 87 1.8 chs pci_intr_handle_t *); 88 1.8 chs const struct evcnt * empb_pci_intr_evcnt(pci_chipset_tag_t, 89 1.8 chs pci_intr_handle_t); 90 1.8 chs int empb_pci_conf_hook(pci_chipset_tag_t, int, int, int, pcireg_t); 91 1.1 rkujawa 92 1.1 rkujawa CFATTACH_DECL_NEW(empb, sizeof(struct empb_softc), 93 1.1 rkujawa empb_match, empb_attach, NULL, NULL); 94 1.1 rkujawa 95 1.1 rkujawa static int 96 1.1 rkujawa empb_match(device_t parent, cfdata_t cf, void *aux) 97 1.1 rkujawa { 98 1.1 rkujawa struct zbus_args *zap; 99 1.1 rkujawa 100 1.1 rkujawa zap = aux; 101 1.1 rkujawa 102 1.1 rkujawa if (zap->manid != ZORRO_MANID_ELBOX) 103 1.1 rkujawa return 0; 104 1.1 rkujawa 105 1.1 rkujawa switch (zap->prodid) { 106 1.1 rkujawa case ZORRO_PRODID_MED1K2: 107 1.1 rkujawa case ZORRO_PRODID_MED1K2SX: 108 1.1 rkujawa case ZORRO_PRODID_MED1K2LT2: 109 1.1 rkujawa case ZORRO_PRODID_MED1K2LT4: 110 1.1 rkujawa case ZORRO_PRODID_MED1K2TX: 111 1.10 rkujawa case ZORRO_PRODID_MEDZIV: /* ZIV untested! */ 112 1.1 rkujawa return 1; 113 1.1 rkujawa } 114 1.1 rkujawa 115 1.1 rkujawa return 0; 116 1.1 rkujawa } 117 1.1 rkujawa 118 1.1 rkujawa 119 1.1 rkujawa static void 120 1.1 rkujawa empb_attach(device_t parent, device_t self, void *aux) 121 1.1 rkujawa { 122 1.1 rkujawa struct empb_softc *sc; 123 1.1 rkujawa struct zbus_args *zap; 124 1.1 rkujawa 125 1.1 rkujawa volatile char *ba; 126 1.1 rkujawa 127 1.1 rkujawa zap = aux; 128 1.1 rkujawa sc = device_private(self); 129 1.1 rkujawa sc->sc_dev = self; 130 1.1 rkujawa ba = zap->va; 131 1.1 rkujawa 132 1.9 rkujawa sc->model = zap->prodid; 133 1.9 rkujawa 134 1.9 rkujawa switch (sc->model) { 135 1.1 rkujawa case ZORRO_PRODID_MED1K2: 136 1.1 rkujawa aprint_normal(": ELBOX Mediator PCI 1200\n"); 137 1.1 rkujawa break; 138 1.1 rkujawa case ZORRO_PRODID_MED1K2SX: 139 1.1 rkujawa aprint_normal(": ELBOX Mediator PCI 1200 SX\n"); 140 1.1 rkujawa break; 141 1.1 rkujawa case ZORRO_PRODID_MED1K2LT2: 142 1.1 rkujawa aprint_normal(": ELBOX Mediator PCI 1200 LT2\n"); 143 1.1 rkujawa break; 144 1.1 rkujawa case ZORRO_PRODID_MED1K2LT4: 145 1.1 rkujawa aprint_normal(": ELBOX Mediator PCI 1200 LT4\n"); 146 1.1 rkujawa break; 147 1.1 rkujawa case ZORRO_PRODID_MED1K2TX: 148 1.1 rkujawa aprint_normal(": ELBOX Mediator PCI 1200 TX\n"); 149 1.1 rkujawa break; 150 1.1 rkujawa default: 151 1.1 rkujawa aprint_normal(": ELBOX Mediator PCI (unknown)\n"); 152 1.1 rkujawa break; 153 1.1 rkujawa } 154 1.1 rkujawa 155 1.1 rkujawa /* Setup bus space mappings. */ 156 1.1 rkujawa sc->pci_confio_area.base = (bus_addr_t) ba + EMPB_BRIDGE_OFF; 157 1.1 rkujawa sc->pci_confio_area.absm = &amiga_bus_stride_1swap; 158 1.1 rkujawa 159 1.1 rkujawa sc->setup_area.base = (bus_addr_t) ba + EMPB_SETUP_OFF; 160 1.1 rkujawa sc->setup_area.absm = &amiga_bus_stride_1; 161 1.1 rkujawa 162 1.1 rkujawa /* 163 1.1 rkujawa * Defer everything until later, we need to wait for possible 164 1.1 rkujawa * emmem attachments. 165 1.1 rkujawa */ 166 1.1 rkujawa 167 1.1 rkujawa config_defer(self, empb_callback); 168 1.1 rkujawa } 169 1.1 rkujawa 170 1.1 rkujawa static void 171 1.1 rkujawa empb_callback(device_t self) { 172 1.1 rkujawa 173 1.1 rkujawa struct empb_softc *sc; 174 1.1 rkujawa pci_chipset_tag_t pc; 175 1.1 rkujawa struct pcibus_attach_args pba; 176 1.4 rkujawa #ifdef PCI_NETBSD_CONFIGURE 177 1.4 rkujawa struct extent *ioext, *memext; 178 1.4 rkujawa #endif /* PCI_NETBSD_CONFIGURE */ 179 1.1 rkujawa 180 1.1 rkujawa sc = device_private(self); 181 1.1 rkujawa pc = &sc->apc; 182 1.1 rkujawa 183 1.1 rkujawa #ifdef EMPB_DEBUG 184 1.1 rkujawa aprint_normal("empb: mapped setup %x->%x, conf/io %x->%x\n", 185 1.1 rkujawa kvtop((void*) sc->setup_area.base), sc->setup_area.base, 186 1.1 rkujawa kvtop((void*) sc->pci_confio_area.base), sc->pci_confio_area.base); 187 1.1 rkujawa #endif 188 1.1 rkujawa 189 1.1 rkujawa sc->pci_confio_t = &(sc->pci_confio_area); 190 1.1 rkujawa 191 1.5 rkujawa /* 192 1.5 rkujawa * We should not map I/O space here, however we have no choice 193 1.5 rkujawa * since these addresses are shared between configuration space and 194 1.5 rkujawa * I/O space. Not really a problem on m68k, however on PPC... 195 1.5 rkujawa */ 196 1.1 rkujawa if (bus_space_map(sc->pci_confio_t, 0, EMPB_BRIDGE_SIZE, 0, 197 1.1 rkujawa &sc->pci_confio_h)) 198 1.1 rkujawa aprint_error_dev(self, 199 1.1 rkujawa "couldn't map PCI configuration & I/O space\n"); 200 1.1 rkujawa 201 1.1 rkujawa sc->apc.pci_conf_datat = sc->pci_confio_t; 202 1.1 rkujawa sc->apc.pci_conf_datah = sc->pci_confio_h; 203 1.1 rkujawa 204 1.1 rkujawa sc->setup_area_t = &(sc->setup_area); 205 1.1 rkujawa 206 1.1 rkujawa if (bus_space_map(sc->setup_area_t, 0, EMPB_SETUP_SIZE, 0, 207 1.1 rkujawa &sc->setup_area_h)) 208 1.1 rkujawa aprint_error_dev(self, 209 1.1 rkujawa "couldn't map Mediator setup space\n"); 210 1.1 rkujawa 211 1.2 rkujawa empb_find_mem(sc); 212 1.2 rkujawa if (sc->pci_mem_win_size == 0) 213 1.2 rkujawa aprint_error_dev(self, 214 1.2 rkujawa "couldn't find memory space, check your WINDOW jumper\n"); 215 1.2 rkujawa 216 1.1 rkujawa /* Initialize the PCI chipset tag. */ 217 1.1 rkujawa sc->apc.pc_conf_v = (void*) pc; 218 1.1 rkujawa sc->apc.pc_bus_maxdevs = empb_pci_bus_maxdevs; 219 1.1 rkujawa sc->apc.pc_make_tag = amiga_pci_make_tag; 220 1.1 rkujawa sc->apc.pc_decompose_tag = amiga_pci_decompose_tag; 221 1.1 rkujawa sc->apc.pc_conf_read = empb_pci_conf_read; 222 1.1 rkujawa sc->apc.pc_conf_write = empb_pci_conf_write; 223 1.1 rkujawa sc->apc.pc_attach_hook = empb_pci_attach_hook; 224 1.1 rkujawa 225 1.1 rkujawa sc->apc.pc_intr_map = empb_pci_intr_map; 226 1.1 rkujawa sc->apc.pc_intr_string = amiga_pci_intr_string; 227 1.1 rkujawa sc->apc.pc_intr_establish = amiga_pci_intr_establish; 228 1.1 rkujawa sc->apc.pc_intr_disestablish = amiga_pci_intr_disestablish; 229 1.1 rkujawa 230 1.5 rkujawa sc->apc.pc_conf_hook = empb_pci_conf_hook; 231 1.1 rkujawa sc->apc.pc_conf_interrupt = amiga_pci_conf_interrupt; 232 1.1 rkujawa 233 1.1 rkujawa sc->apc.cookie = sc; 234 1.1 rkujawa 235 1.4 rkujawa #ifdef PCI_NETBSD_CONFIGURE 236 1.4 rkujawa ioext = extent_create("empbio", 0, EMPB_BRIDGE_SIZE, 237 1.4 rkujawa NULL, 0, EX_NOWAIT); 238 1.4 rkujawa 239 1.4 rkujawa memext = extent_create("empbmem", EMPB_MEM_BASE, EMPB_MEM_END, 240 1.4 rkujawa NULL, 0, EX_NOWAIT); 241 1.4 rkujawa 242 1.4 rkujawa pci_configure_bus(pc, ioext, memext, NULL, 0, CACHELINE_SIZE); 243 1.4 rkujawa 244 1.4 rkujawa extent_destroy(ioext); 245 1.4 rkujawa extent_destroy(memext); 246 1.4 rkujawa 247 1.4 rkujawa #endif /* PCI_NETBSD_CONFIGURE */ 248 1.4 rkujawa 249 1.1 rkujawa pba.pba_iot = &(sc->pci_confio_area); 250 1.1 rkujawa pba.pba_dmat = NULL; 251 1.1 rkujawa pba.pba_dmat64 = NULL; 252 1.1 rkujawa pba.pba_pc = pc; 253 1.1 rkujawa pba.pba_flags = PCI_FLAGS_IO_OKAY; 254 1.1 rkujawa 255 1.2 rkujawa if(sc->pci_mem_win_size > 0) { 256 1.2 rkujawa pba.pba_memt = &(sc->pci_mem_win); 257 1.1 rkujawa pba.pba_flags |= PCI_FLAGS_MEM_OKAY; 258 1.2 rkujawa } else 259 1.1 rkujawa pba.pba_memt = NULL; 260 1.1 rkujawa 261 1.1 rkujawa pba.pba_bus = 0; 262 1.1 rkujawa pba.pba_bridgetag = NULL; 263 1.1 rkujawa 264 1.9 rkujawa /* Attach power management on SX and TX models. */ 265 1.9 rkujawa switch (sc->model) { 266 1.9 rkujawa case ZORRO_PRODID_MED1K2SX: 267 1.9 rkujawa case ZORRO_PRODID_MED1K2TX: 268 1.9 rkujawa empb_empm_attach(sc); 269 1.9 rkujawa default: 270 1.9 rkujawa break; 271 1.9 rkujawa } 272 1.9 rkujawa 273 1.5 rkujawa empb_intr_enable(sc); 274 1.5 rkujawa 275 1.1 rkujawa config_found_ia(self, "pcibus", &pba, pcibusprint); 276 1.1 rkujawa } 277 1.1 rkujawa 278 1.9 rkujawa static void 279 1.9 rkujawa empb_empm_attach(struct empb_softc *sc) 280 1.9 rkujawa { 281 1.9 rkujawa struct empm_attach_args aa; 282 1.9 rkujawa aa.setup_area_t = sc->setup_area_t; 283 1.9 rkujawa 284 1.9 rkujawa config_found_ia(sc->sc_dev, "empmdev", &aa, empb_empm_print); 285 1.9 rkujawa } 286 1.9 rkujawa 287 1.9 rkujawa static int 288 1.9 rkujawa empb_empm_print(void *aux, const char *pnp) 289 1.9 rkujawa { 290 1.9 rkujawa if (pnp) 291 1.9 rkujawa aprint_normal("empm at %s", pnp); 292 1.9 rkujawa 293 1.9 rkujawa return UNCONF; 294 1.9 rkujawa } 295 1.9 rkujawa 296 1.5 rkujawa static void 297 1.5 rkujawa empb_intr_enable(struct empb_softc *sc) 298 1.5 rkujawa { 299 1.5 rkujawa bus_space_write_1(sc->setup_area_t, sc->setup_area_h, 300 1.5 rkujawa EMPB_SETUP_INTR_OFF, EMPB_INTR_ENABLE); 301 1.5 rkujawa } 302 1.5 rkujawa 303 1.1 rkujawa /* 304 1.1 rkujawa * Switch between configuration space and I/O space. 305 1.1 rkujawa */ 306 1.2 rkujawa static void 307 1.1 rkujawa empb_switch_bridge(struct empb_softc *sc, uint8_t mode) 308 1.1 rkujawa { 309 1.1 rkujawa bus_space_write_1(sc->setup_area_t, sc->setup_area_h, 310 1.1 rkujawa EMPB_SETUP_BRIDGE_OFF, mode); 311 1.1 rkujawa } 312 1.1 rkujawa 313 1.1 rkujawa 314 1.1 rkujawa /* 315 1.1 rkujawa * Try to find a (optional) memory window board. 316 1.1 rkujawa */ 317 1.2 rkujawa static void 318 1.1 rkujawa empb_find_mem(struct empb_softc *sc) 319 1.1 rkujawa { 320 1.1 rkujawa device_t memdev; 321 1.1 rkujawa struct emmem_softc *mem_sc; 322 1.1 rkujawa 323 1.1 rkujawa memdev = device_find_by_xname("emmem0"); 324 1.2 rkujawa sc->pci_mem_win_size = 0; 325 1.1 rkujawa 326 1.2 rkujawa if(memdev == NULL) { 327 1.2 rkujawa return; 328 1.2 rkujawa } 329 1.1 rkujawa 330 1.1 rkujawa mem_sc = device_private(memdev); 331 1.1 rkujawa 332 1.2 rkujawa sc->pci_mem_win.base = (bus_addr_t) mem_sc->sc_base; 333 1.5 rkujawa sc->pci_mem_win.absm = &empb_bus_swap; 334 1.2 rkujawa sc->pci_mem_win_size = mem_sc->sc_size; 335 1.5 rkujawa sc->pci_mem_win_t = &sc->pci_mem_win; 336 1.2 rkujawa 337 1.2 rkujawa if(sc->pci_mem_win_size == 8*1024*1024) 338 1.2 rkujawa sc->pci_mem_win_mask = EMPB_WINDOW_MASK_8M; 339 1.2 rkujawa else if(sc->pci_mem_win_size == 4*1024*1024) 340 1.2 rkujawa sc->pci_mem_win_mask = EMPB_WINDOW_MASK_4M; 341 1.2 rkujawa else /* disable anyway */ 342 1.2 rkujawa sc->pci_mem_win_size = 0; 343 1.2 rkujawa 344 1.2 rkujawa #ifdef EMPB_DEBUG 345 1.2 rkujawa aprint_normal("empb: found %x b window at %p, switch mask %x\n", 346 1.2 rkujawa sc->pci_mem_win_size, (void*) sc->pci_mem_win.base, 347 1.2 rkujawa sc->pci_mem_win_mask); 348 1.2 rkujawa #endif /* EMPB_DEBUG */ 349 1.2 rkujawa 350 1.2 rkujawa } 351 1.2 rkujawa 352 1.2 rkujawa /* 353 1.5 rkujawa * Switch memory window position. Return PCI mem address seen at the beginning 354 1.5 rkujawa * of window. 355 1.2 rkujawa */ 356 1.5 rkujawa bus_addr_t 357 1.2 rkujawa empb_switch_window(struct empb_softc *sc, bus_addr_t address) 358 1.2 rkujawa { 359 1.2 rkujawa int s; 360 1.2 rkujawa uint16_t win_reg; 361 1.5 rkujawa #ifdef EMPB_DEBUG 362 1.5 rkujawa uint16_t rwin_reg; 363 1.5 rkujawa #endif /* EMPB_DEBUG */ 364 1.2 rkujawa 365 1.2 rkujawa WINDOW_LOCK(s); 366 1.2 rkujawa 367 1.2 rkujawa win_reg = bswap16((address >> EMPB_WINDOW_SHIFT) 368 1.2 rkujawa & sc->pci_mem_win_mask); 369 1.2 rkujawa 370 1.2 rkujawa bus_space_write_2(sc->setup_area_t, sc->setup_area_h, 371 1.2 rkujawa EMPB_SETUP_WINDOW_OFF, win_reg); 372 1.2 rkujawa 373 1.2 rkujawa /* store window pos, like: sc->pci_mem_win_pos = win_reg ? */ 374 1.2 rkujawa 375 1.5 rkujawa #ifdef EMPB_DEBUG 376 1.5 rkujawa rwin_reg = bus_space_read_2(sc->setup_area_t, sc->setup_area_h, 377 1.2 rkujawa EMPB_SETUP_WINDOW_OFF); 378 1.2 rkujawa 379 1.5 rkujawa aprint_normal("empb: access to %p window switch to %x => reg now %x\n", 380 1.5 rkujawa (void*) address, win_reg, rwin_reg); 381 1.5 rkujawa #endif /* EMPB_DEBUG */ 382 1.5 rkujawa 383 1.2 rkujawa WINDOW_UNLOCK(s); 384 1.2 rkujawa 385 1.5 rkujawa return (bus_addr_t)((bswap16(win_reg)) << EMPB_WINDOW_SHIFT); 386 1.2 rkujawa } 387 1.1 rkujawa 388 1.1 rkujawa 389 1.1 rkujawa pcireg_t 390 1.1 rkujawa empb_pci_conf_read(pci_chipset_tag_t pc, pcitag_t tag, int reg) 391 1.1 rkujawa { 392 1.1 rkujawa uint32_t data; 393 1.1 rkujawa uint32_t bus, dev, func; 394 1.1 rkujawa struct empb_softc *sc; 395 1.1 rkujawa int s; 396 1.1 rkujawa 397 1.11 msaitoh if ((unsigned int)reg >= PCI_CONF_SIZE) 398 1.11 msaitoh return (pcireg_t) -1; 399 1.11 msaitoh 400 1.1 rkujawa sc = pc->cookie; 401 1.1 rkujawa 402 1.1 rkujawa pci_decompose_tag(pc, tag, &bus, &dev, &func); 403 1.1 rkujawa 404 1.1 rkujawa PCI_CONF_LOCK(s); 405 1.1 rkujawa 406 1.1 rkujawa empb_switch_bridge(sc, BRIDGE_CONF); 407 1.1 rkujawa 408 1.1 rkujawa data = bus_space_read_4(pc->pci_conf_datat, pc->pci_conf_datah, 409 1.1 rkujawa EMPB_CONF_DEV_STRIDE*dev + EMPB_CONF_FUNC_STRIDE*func + reg); 410 1.1 rkujawa #ifdef EMPB_DEBUG_CONF 411 1.1 rkujawa aprint_normal("empb conf read va: %lx, bus: %d, dev: %d, " 412 1.1 rkujawa "func: %d, reg: %d -r-> data %x\n", 413 1.1 rkujawa pc->pci_conf_datah, bus, dev, func, reg, data); 414 1.1 rkujawa #endif /* EMPB_DEBUG_CONF */ 415 1.1 rkujawa 416 1.1 rkujawa empb_switch_bridge(sc, BRIDGE_IO); 417 1.1 rkujawa 418 1.1 rkujawa PCI_CONF_UNLOCK(s); 419 1.1 rkujawa 420 1.1 rkujawa return data; 421 1.1 rkujawa } 422 1.1 rkujawa 423 1.1 rkujawa void 424 1.1 rkujawa empb_pci_conf_write(pci_chipset_tag_t pc, pcitag_t tag, int reg, pcireg_t val) 425 1.1 rkujawa { 426 1.1 rkujawa uint32_t bus, dev, func; 427 1.1 rkujawa struct empb_softc *sc; 428 1.1 rkujawa int s; 429 1.1 rkujawa 430 1.11 msaitoh if ((unsigned int)reg >= PCI_CONF_SIZE) 431 1.11 msaitoh return; 432 1.11 msaitoh 433 1.1 rkujawa sc = pc->cookie; 434 1.1 rkujawa 435 1.1 rkujawa pci_decompose_tag(pc, tag, &bus, &dev, &func); 436 1.1 rkujawa 437 1.1 rkujawa PCI_CONF_LOCK(s); 438 1.1 rkujawa 439 1.1 rkujawa empb_switch_bridge(sc, BRIDGE_CONF); 440 1.1 rkujawa 441 1.1 rkujawa bus_space_write_4(pc->pci_conf_datat, pc->pci_conf_datah, 442 1.1 rkujawa EMPB_CONF_DEV_STRIDE*dev + EMPB_CONF_FUNC_STRIDE*func + reg, val); 443 1.1 rkujawa #ifdef EMPB_DEBUG_CONF 444 1.1 rkujawa aprint_normal("empb conf write va: %lx, bus: %d, dev: %d, " 445 1.1 rkujawa "func: %d, reg: %d -w-> data %x\n", 446 1.1 rkujawa pc->pci_conf_datah, bus, dev, func, reg, val); 447 1.1 rkujawa #endif /* EMPB_DEBUG_CONF */ 448 1.1 rkujawa empb_switch_bridge(sc, BRIDGE_IO); 449 1.1 rkujawa 450 1.1 rkujawa PCI_CONF_UNLOCK(s); 451 1.1 rkujawa } 452 1.1 rkujawa 453 1.1 rkujawa int 454 1.1 rkujawa empb_pci_bus_maxdevs(pci_chipset_tag_t pc, int busno) 455 1.1 rkujawa { 456 1.1 rkujawa return 6; /* no Mediator with more than 6 slots? */ 457 1.1 rkujawa } 458 1.1 rkujawa 459 1.1 rkujawa void 460 1.8 chs empb_pci_attach_hook(device_t parent, device_t self, 461 1.1 rkujawa struct pcibus_attach_args *pba) 462 1.1 rkujawa { 463 1.1 rkujawa } 464 1.1 rkujawa 465 1.1 rkujawa int 466 1.1 rkujawa empb_pci_intr_map(const struct pci_attach_args *pa, pci_intr_handle_t *ihp) 467 1.1 rkujawa { 468 1.1 rkujawa /* TODO: add sanity checking */ 469 1.1 rkujawa 470 1.1 rkujawa *ihp = EMPB_INT; 471 1.1 rkujawa return 0; 472 1.1 rkujawa } 473 1.1 rkujawa 474 1.1 rkujawa const struct evcnt * 475 1.1 rkujawa empb_pci_intr_evcnt(pci_chipset_tag_t pc, pci_intr_handle_t ih) 476 1.1 rkujawa { 477 1.1 rkujawa /* TODO: implement */ 478 1.1 rkujawa return NULL; 479 1.1 rkujawa } 480 1.1 rkujawa 481 1.5 rkujawa int 482 1.5 rkujawa empb_pci_conf_hook(pci_chipset_tag_t pct, int bus, int dev, int func, 483 1.5 rkujawa pcireg_t id) 484 1.5 rkujawa { 485 1.5 rkujawa 486 1.5 rkujawa /* 487 1.5 rkujawa * Register information about some known PCI devices with 488 1.5 rkujawa * DMA-able memory. 489 1.5 rkujawa */ 490 1.5 rkujawa /*if ((PCI_VENDOR(id) == PCI_VENDOR_3DFX) && 491 1.5 rkujawa (PCI_PRODUCT(id) >= PCI_PRODUCT_3DFX_VOODOO3))*/ 492 1.5 rkujawa 493 1.5 rkujawa 494 1.5 rkujawa return PCI_CONF_DEFAULT; 495 1.5 rkujawa } 496
Indexes created Wed Oct 01 07:09:59 GMT 2025